DE714424C - Scissor drive for rolling mills with a drive means that stores the driving force of the motor - Google Patents

Description

Scissor drive for rolling mills with one the driving force of the motor storing propellant With constantly running scissors you have to save Engine power coupled with this a flywheel, which alternately stores power and provides strength. This remedy does not apply in cases where there is a change the speed of the motor is provided or the scissors are only operated intermittently is because the flywheel is only maintained at a certain speed that is evenly maintained can work properly.

The invention enables intermittent operation with a relatively weak motor in that one or more weights or springs are used to store force Thrusters are used and provide the cutting force for the scissors after the engine lifted or cocked it. As engine parts that act directly on the knife shafts can serve crank or eccentric drives or cam disks, which initially the Lift weights or tension the springs, whereupon they cause the cut. The coupling the knife shafts are expediently carried out via a coupling that only acts in one direction, so that the motor power is out of the question for the silhouette and the motor can be switched off during this time or continue to run at a low speed can.

In the drawing is an embodiment of the subject matter of Invention shown. Fig. R shows a side view, and Figs. 2, 3 and q. are cross-sections.

The two knife shafts a and b are through the out. Fig. T and q: Obvious gears zl, z2 coupled to one another with intermediate gears z3. you will be driven by a motor M via a clutch h, which is only for one direction of rotation has a latch, while in the other direction the coupling parts freely against each other - move. On the shafts are attached knives, e2, the from both sides at the same time in the between the waves moving perpendicular to them Rolling stock enter this cutting through. There are cam disks s1 on the shafts, s. attached, on which, as specifically shown in Fig. a, rollers rl, r. rest. These are rotatable on lever arms k1, h. mounted on one side in fixed pivot points d1, d2, supported and at the free ends by a strong spring /., with each other are connected.

In the position shown in FIG. Z, the two shafts a and b have just made the cut. The position shown in dotted lines is the state of rest; the spring /, is characterized in that the cam disks s1, s, 'the rollers r1, t :. have raised, in a state of highest tension. While the motor continues to turn the shafts in the direction of the arrow, the spring exerts an additional force on the cam disks via its lever and pressure rollers and gives the shafts increasing acceleration. so that they cut into the rolling stock with a force exceeding the power of the motor. As soon as the cut is completed and no more force can be applied to the knives, the motor power is used to raise the roller levers h1, h2 again by means of the cam disks and thus to tension the spring f1 again. The operating speed of the knives depends on the transport speed of the rolling stock and must be adjusted accordingly. Various means can be provided for this purpose. The cams on the knife shafts can be made interchangeable or adjustable, or a plurality of correspondingly different types or attached cams can be arranged next to one another. of which one or the other cam is engaged with the roller levers for the tension spring, as required. In many of the exemplary embodiments, a particularly simple arrangement with clamping screws and nuts pl, p2 is selected.

To the scissor drive not only for different speeds of the rolling stock, but also to adjust for its different thickness are on further cam disks s ;;, s1 are attached to the shafts, also with roller levers h3, lt, work together. These levers are also mounted on one side in bearings Uli, d4 and influenced at its free end by a spring f2. These cams are designed in such a way that their spring a considerable additional force for the cut itself delivers after the cam disks s1, s have done their acceleration work to have. The cooperation of the cam disks s1, s, and s3, and s1 is therefore one such. that the engine hl, .s1 112, fl accelerates the waves until the knife except for a small angle, which can be about 20 °, the intersection have approached. At this point the second engine is ht ,. s;, h4, st, f effective, in that on the cam disks s.;, s1 a sharply sloping part f.- ;, i_, with the Roller i- ;, r1 engages. The driving force for the knives is now by the spring t which was gradually tightened beforehand. done. This spring can also like the other spring f1, can be adjusted with different tension, namely this classification takes place according to the thickness of the rolling stock to be cut. It can. in addition or instead of this, the cam disks ";;, s1 can also be set made or several cam disks that can be switched on according to your choice can be seen.

The adjustment of the spring tensioning force or the other energy storage can be done automatically. In particular, it is useful to depend on this setting to be made by the speed of the rolling stock on the rolling train. For example For this purpose, the regulating devices for the rolls of the rolling mills can be used driving M-gates are coupled with the adjustment devices for you energy storage be. Instead of using the energy storage mechanism, you can use the automatic adjustment devices also act on the cam disks, provided that they change the acceleration forces or the cutting times would be used immediately.

Claims (1)

PATENT CLAIMS: i. Shear drive for rolling mills with drive means that store the drive power of the motor, in which the shear blades are arranged on two offset shafts driven in opposite directions and act on the rolling stock at the same time. characterized in that for the relatively slow storage of the force required for the cut (ei, e.,) from the shafts (a, b) . as long as they are driven by the motor (.il), springs (f, J #,) are tensioned or poems are lifted that are designed and dimensioned in such a way that when they are triggered, expediently by disconnecting the motor (M), they are irradiated for the high speed scissors cut ie " e.,) provide. a. Scissors drive according to claim 1, characterized by two drives, one of which (si, s,) the knife shafts ta, b) until the cutting position is reached accelerated, while the other (.s.;, si) is effective during the cut itself -. ,, m. 3. Scissors drive according to claim i or 2, characterized in that the drives of the two cutter shafts (a, b) through the springs (f1, f2) serving as energy accumulators are coupled together. q .. scissors drive according to claims i to 3, characterized in that the force effect of the energy accumulators, in particular springs (f1, f2), is adjustable (p ", p2) . 5. scissors drive according to claim i to 3, characterized in that the engines consist of, on the two cutter shafts Ca, b) fixed cam disks, (s1 to, s4), which cooperate with unilaterally mounted pressure roller levers (ht to h4), whose free ends are connected directly by the spring (f " j2). 6. Scissors drive according to claims 1 to 5, characterized in that the parts of the drive mechanisms directly connected to the cutter shafts, in particular the cam disks (s1 to s4), to the Shafts are adjustable or a plurality of such engine parts can be exchanged.